Minimum of six orders of magnitude. Detection of a synthetic template standard curve from 20 to 20 million copies.

R2

>0.99

These DNA primer pairs were designed by prioritizing the gene regions most commonly found in transcript variants. Strict design criteria were used to ensure optimal real-time PCR results for each target:

Target regions without SNPs

PCR primer pairs annealing across intron/exon junctions when possible

No secondary structure in primer annealing sites

Maximum number of transcript isoforms detected

PCR primers compatible with standard assay conditions

Every PCR primer pair was experimentally validated using Bio-Rad’s iScript™ advanced cDNA synthesis kit and SsoAdvanced™ SYBR® Green supermix. PrimePCR assay design and validation are fully described in the following publication.

Thomson Reuters provided interactive pathway maps for 260 canonical pathways. Each pathway belongs to one or more general biological categories such as cancer. The pathway maps illustrate protein interactions and regulation to provide a comprehensive picture of signaling and disease processes. The selected pathways were used to design panels of real-time PCR primers tailored for the top-ranked genes for differential gene expression analysis. Each gene target within a pathway was assigned a score based on the frequency of differential expression and its research significance. The resulting scores were used to select the assays included in the corresponding real-time PCR pathway panel.

Control assays and synthetic DNA templates were designed to facilitate the assessment of the key experimental factors impacting your real-time PCR results.

DNA Contamination Control AssayUse the PrimePCR DNA contamination control assay to determine if genomic DNA (gDNA) is present in a sample at a level that may affect PCR results. This assay may also be used to compare relative levels of gDNA contamination present in different samples to determine if PCR results may be affected.

Positive PCR Control AssayUse the PrimePCR positive control assay to qualitatively assess the performance of a PCR reaction associated with a single sample. This assay may also be used to compare the relative performance of PCR reactions associated with different samples.

RNA Quality AssayUse the PrimePCR RNA quality assay to determine if RNA integrity may adversely affect PCR results for a single sample. This assay may also be used to compare relative RNA integrity among different samples to determine how PCR results might be affected.

Reverse Transcription Control AssayUse the PrimePCR reverse transcription control assay to qualitatively assess the performance of the reverse transcription reaction associated with a single sample. This assay may also be used to compare the relative performance of the reverse transcription reactions associated with different samples.

Reference Gene AssaysReference genes are used in relative gene expression analysis to normalize for variation in the amount of input messenger RNA (mRNA) among samples. To ensure accurate quantitation, it is important to include one or more reference genes exhibiting constant expression levels under the experimental conditions. To streamline reference gene selection, we offer PCR primers for a set of commonly used reference genes that can be used individually, easily screened using our preplated 96-well and 384-well reference panels or added to custom-designed plates.

This gene product belongs to the family of candidate taste receptors that are members of the G-protein-coupled receptor superfamily. These proteins are specifically expressed in the taste receptor cells of the tongue and palate epithelia. They are organized in the genome in clusters and are genetically linked to loci that influence bitter perception in mice and humans. In functional expression studies they respond to bitter tastants. This gene maps to the taste receptor gene cluster on chromosome 12p13. [provided by RefSeq Jul 2008]